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//
//  ========================================================================
//  Copyright (c) 1995-2016 Mort Bay Consulting Pty. Ltd.
//  ------------------------------------------------------------------------
//  All rights reserved. This program and the accompanying materials
//  are made available under the terms of the Eclipse Public License v1.0
//  and Apache License v2.0 which accompanies this distribution.
//
//      The Eclipse Public License is available at
//      http://www.eclipse.org/legal/epl-v10.html
//
//      The Apache License v2.0 is available at
//      http://www.opensource.org/licenses/apache2.0.php
//
//  You may elect to redistribute this code under either of these licenses.
//  ========================================================================
//

package org.eclipse.jetty.server;

import java.io.IOException;
import java.net.InetSocketAddress;
import java.nio.ByteBuffer;
import java.nio.channels.ClosedChannelException;
import java.nio.charset.StandardCharsets;
import java.util.List;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;

import javax.servlet.DispatcherType;
import javax.servlet.RequestDispatcher;
import javax.servlet.http.HttpServletRequest;

import org.eclipse.jetty.http.HttpField;
import org.eclipse.jetty.http.HttpFields;
import org.eclipse.jetty.http.HttpGenerator;
import org.eclipse.jetty.http.HttpGenerator.ResponseInfo;
import org.eclipse.jetty.http.HttpHeader;
import org.eclipse.jetty.http.HttpHeaderValue;
import org.eclipse.jetty.http.HttpMethod;
import org.eclipse.jetty.http.HttpParser;
import org.eclipse.jetty.http.HttpStatus;
import org.eclipse.jetty.http.HttpURI;
import org.eclipse.jetty.http.HttpVersion;
import org.eclipse.jetty.http.MimeTypes;
import org.eclipse.jetty.io.ByteBufferPool;
import org.eclipse.jetty.io.ChannelEndPoint;
import org.eclipse.jetty.io.EndPoint;
import org.eclipse.jetty.io.EofException;
import org.eclipse.jetty.server.HttpChannelState.Action;
import org.eclipse.jetty.server.handler.ContextHandler;
import org.eclipse.jetty.server.handler.ErrorHandler;
import org.eclipse.jetty.util.Callback;
import org.eclipse.jetty.util.SharedBlockingCallback.Blocker;
import org.eclipse.jetty.util.URIUtil;
import org.eclipse.jetty.util.log.Log;
import org.eclipse.jetty.util.log.Logger;
import org.eclipse.jetty.util.thread.Scheduler;


/* ------------------------------------------------------------ */
/** HttpChannel.
 * Represents a single endpoint for HTTP semantic processing.
 * The HttpChannel is both a HttpParser.RequestHandler, where it passively receives events from
 * an incoming HTTP request, and a Runnable, where it actively takes control of the request/response
 * life cycle and calls the application (perhaps suspending and resuming with multiple calls to run).
 * The HttpChannel signals the switch from passive mode to active mode by returning true to one of the
 * HttpParser.RequestHandler callbacks.   The completion of the active phase is signalled by a call to
 * HttpTransport.completed().
 *
 */
public class HttpChannel implements HttpParser.RequestHandler, Runnable, HttpParser.ProxyHandler
{
    private static final Logger LOG = Log.getLogger(HttpChannel.class);
    private static final ThreadLocal> __currentChannel = new ThreadLocal<>();

    /* ------------------------------------------------------------ */
    /** Get the current channel that this thread is dispatched to.
     * @see Request#getAttribute(String) for a more general way to access the HttpChannel
     * @return the current HttpChannel or null
     */
    public static HttpChannel getCurrentHttpChannel()
    {
        return __currentChannel.get();
    }

    protected static HttpChannel setCurrentHttpChannel(HttpChannel channel)
    {
        HttpChannel last=__currentChannel.get();
        __currentChannel.set(channel);
        return last;
    }

    private final AtomicBoolean _committed = new AtomicBoolean();
    private final AtomicInteger _requests = new AtomicInteger();
    private final Connector _connector;
    private final HttpConfiguration _configuration;
    private final EndPoint _endPoint;
    private final HttpTransport _transport;
    private final HttpURI _uri;
    private final HttpChannelState _state;
    private final Request _request;
    private final Response _response;
    private HttpVersion _version = HttpVersion.HTTP_1_1;
    private boolean _expect = false;
    private boolean _expect100Continue = false;
    private boolean _expect102Processing = false;

    public HttpChannel(Connector connector, HttpConfiguration configuration, EndPoint endPoint, HttpTransport transport, HttpInput input)
    {
        _connector = connector;
        _configuration = configuration;
        _endPoint = endPoint;
        _transport = transport;

        _uri = new HttpURI(URIUtil.__CHARSET);
        _state = new HttpChannelState(this);
        input.init(_state);
        _request = new Request(this, input);
        _response = new Response(this, new HttpOutput(this));

        if (LOG.isDebugEnabled())
            LOG.debug("new {} -> {},{},{}",this,_endPoint,_endPoint.getConnection(),_state);
    }

    public HttpChannelState getState()
    {
        return _state;
    }

    public HttpVersion getHttpVersion()
    {
        return _version;
    }
    /**
     * @return the number of requests handled by this connection
     */
    public int getRequests()
    {
        return _requests.get();
    }

    public Connector getConnector()
    {
        return _connector;
    }

    public HttpTransport getHttpTransport()
    {
        return _transport;
    }

    /**
     * Get the idle timeout.
     * 

This is implemented as a call to {@link EndPoint#getIdleTimeout()}, but may be * overridden by channels that have timeouts different from their connections. */ public long getIdleTimeout() { return _endPoint.getIdleTimeout(); } /** * Set the idle timeout. *

This is implemented as a call to {@link EndPoint#setIdleTimeout(long)}, but may be * overridden by channels that have timeouts different from their connections. */ public void setIdleTimeout(long timeoutMs) { _endPoint.setIdleTimeout(timeoutMs); } public ByteBufferPool getByteBufferPool() { return _connector.getByteBufferPool(); } public HttpConfiguration getHttpConfiguration() { return _configuration; } public Server getServer() { return _connector.getServer(); } public Request getRequest() { return _request; } public Response getResponse() { return _response; } public EndPoint getEndPoint() { return _endPoint; } public InetSocketAddress getLocalAddress() { return _endPoint.getLocalAddress(); } public InetSocketAddress getRemoteAddress() { return _endPoint.getRemoteAddress(); } @Override public int getHeaderCacheSize() { return _configuration.getHeaderCacheSize(); } /** * If the associated response has the Expect header set to 100 Continue, * then accessing the input stream indicates that the handler/servlet * is ready for the request body and thus a 100 Continue response is sent. * * @throws IOException if the InputStream cannot be created */ public void continue100(int available) throws IOException { // If the client is expecting 100 CONTINUE, then send it now. // TODO: consider using an AtomicBoolean ? if (isExpecting100Continue()) { _expect100Continue = false; // is content missing? if (available == 0) { if (_response.isCommitted()) throw new IOException("Committed before 100 Continues"); // TODO: break this dependency with HttpGenerator boolean committed = sendResponse(HttpGenerator.CONTINUE_100_INFO, null, false); if (!committed) throw new IOException("Concurrent commit while trying to send 100-Continue"); } } } public void reset() { _committed.set(false); _expect = false; _expect100Continue = false; _expect102Processing = false; _request.recycle(); _response.recycle(); _uri.clear(); } @Override public void run() { handle(); } /* ------------------------------------------------------------ */ /** * @return True if the channel is ready to continue handling (ie it is not suspended) */ public boolean handle() { if (LOG.isDebugEnabled()) LOG.debug("{} handle enter", this); final HttpChannellast = setCurrentHttpChannel(this); String threadName = null; if (LOG.isDebugEnabled()) { threadName = Thread.currentThread().getName(); Thread.currentThread().setName(threadName + " - " + _uri); } HttpChannelState.Action action = _state.handling(); try { // Loop here to handle async request redispatches. // The loop is controlled by the call to async.unhandle in the // finally block below. Unhandle will return false only if an async dispatch has // already happened when unhandle is called. loop: while (action.ordinal() customizers = _configuration.getCustomizers(); if (!customizers.isEmpty()) { for (HttpConfiguration.Customizer customizer : customizers) customizer.customize(getConnector(), _configuration, _request); } getServer().handle(this); break; case ASYNC_DISPATCH: _request.setHandled(false); _response.getHttpOutput().reopen(); _request.setDispatcherType(DispatcherType.ASYNC); getServer().handleAsync(this); break; case ASYNC_EXPIRED: _request.setHandled(false); _response.getHttpOutput().reopen(); _request.setDispatcherType(DispatcherType.ERROR); Throwable ex=_state.getAsyncContextEvent().getThrowable(); String reason="Async Timeout"; if (ex!=null) { reason="Async Exception"; _request.setAttribute(RequestDispatcher.ERROR_EXCEPTION,ex); } _request.setAttribute(RequestDispatcher.ERROR_STATUS_CODE,new Integer(500)); _request.setAttribute(RequestDispatcher.ERROR_MESSAGE,reason); _request.setAttribute(RequestDispatcher.ERROR_REQUEST_URI,_request.getRequestURI()); _response.setStatusWithReason(500,reason); ErrorHandler eh = ErrorHandler.getErrorHandler(getServer(),_state.getContextHandler()); if (eh instanceof ErrorHandler.ErrorPageMapper) { String error_page=((ErrorHandler.ErrorPageMapper)eh).getErrorPage((HttpServletRequest)_state.getAsyncContextEvent().getSuppliedRequest()); if (error_page!=null) _state.getAsyncContextEvent().setDispatchPath(error_page); } getServer().handleAsync(this); break; case READ_CALLBACK: { ContextHandler handler=_state.getContextHandler(); if (handler!=null) handler.handle(_request.getHttpInput()); else _request.getHttpInput().run(); break; } case WRITE_CALLBACK: { ContextHandler handler=_state.getContextHandler(); if (handler!=null) handler.handle(_response.getHttpOutput()); else _response.getHttpOutput().run(); break; } default: break loop; } } catch (Error e) { if ("ContinuationThrowable".equals(e.getClass().getSimpleName())) LOG.ignore(e); else { error=true; LOG.warn(String.valueOf(_uri), e); _state.error(e); _request.setHandled(true); handleException(e); } } catch (Exception e) { error=true; if (e instanceof EofException) LOG.debug(e); else LOG.warn(String.valueOf(_uri), e); _state.error(e); _request.setHandled(true); handleException(e); } finally { if (error && _state.isAsyncStarted()) _state.errorComplete(); action = _state.unhandle(); } } if (action==Action.COMPLETE) { try { _state.completed(); if (!_response.isCommitted() && !_request.isHandled()) { _response.sendError(404); } else { // Complete generating the response _response.closeOutput(); } } catch(EofException|ClosedChannelException e) { LOG.debug(e); } catch(Exception e) { LOG.warn("complete failed",e); } finally { _request.setHandled(true); _transport.completed(); } } } finally { setCurrentHttpChannel(last); if (threadName != null && LOG.isDebugEnabled()) Thread.currentThread().setName(threadName); } if (LOG.isDebugEnabled()) LOG.debug("{} handle exit, result {}", this, action); return action!=Action.WAIT; } /** *

Sends an error 500, performing a special logic to detect whether the request is suspended, * to avoid concurrent writes from the application.

*

It may happen that the application suspends, and then throws an exception, while an application * spawned thread writes the response content; in such case, we attempt to commit the error directly * bypassing the {@link ErrorHandler} mechanisms and the response OutputStream.

* * @param x the Throwable that caused the problem */ protected void handleException(Throwable x) { try { _request.setAttribute(RequestDispatcher.ERROR_EXCEPTION,x); _request.setAttribute(RequestDispatcher.ERROR_EXCEPTION_TYPE,x.getClass()); if (_state.isSuspended()) { HttpFields fields = new HttpFields(); fields.add(HttpHeader.CONNECTION,HttpHeaderValue.CLOSE); ResponseInfo info = new ResponseInfo(_request.getHttpVersion(), fields, 0, HttpStatus.INTERNAL_SERVER_ERROR_500, null, _request.isHead()); boolean committed = sendResponse(info, null, true); if (!committed) LOG.warn("Could not send response error 500: "+x); _request.getAsyncContext().complete(); } else if (isCommitted()) { abort(); if (!(x instanceof EofException)) LOG.warn("Could not send response error 500: "+x); } else { _response.setHeader(HttpHeader.CONNECTION.asString(),HttpHeaderValue.CLOSE.asString()); _response.sendError(500, x.getMessage()); } } catch (IOException e) { // We tried our best, just log LOG.debug("Could not commit response error 500", e); } } public boolean isExpecting100Continue() { return _expect100Continue; } public boolean isExpecting102Processing() { return _expect102Processing; } @Override public String toString() { return String.format("%s@%x{r=%s,c=%b,a=%s,uri=%s}", getClass().getSimpleName(), hashCode(), _requests, _committed.get(), _state.getState(), _uri); } @Override public void proxied(String protocol, String sAddr, String dAddr, int sPort, int dPort) { _request.setAttribute("PROXY", protocol); _request.setServerName(sAddr); _request.setServerPort(dPort); _request.setRemoteAddr(InetSocketAddress.createUnresolved(sAddr,sPort)); } @Override public boolean startRequest(HttpMethod httpMethod, String method, ByteBuffer uri, HttpVersion version) { _expect = false; _expect100Continue = false; _expect102Processing = false; _request.setTimeStamp(System.currentTimeMillis()); _request.setMethod(httpMethod, method); if (httpMethod == HttpMethod.CONNECT) _uri.parseConnect(uri.array(),uri.arrayOffset()+uri.position(),uri.remaining()); else _uri.parse(uri.array(),uri.arrayOffset()+uri.position(),uri.remaining()); _request.setUri(_uri); String path; try { path = _uri.getDecodedPath(); } catch (Exception e) { LOG.warn("Failed UTF-8 decode for request path, trying ISO-8859-1"); LOG.ignore(e); path = _uri.getDecodedPath(StandardCharsets.ISO_8859_1); } String info = URIUtil.canonicalPath(path); if (info == null) { if( path==null && _uri.getScheme()!=null &&_uri.getHost()!=null) { info = "/"; _request.setRequestURI(""); } else { badMessage(400,null); return true; } } _request.setPathInfo(info); _version = version == null ? HttpVersion.HTTP_0_9 : version; _request.setHttpVersion(_version); return false; } @Override public boolean parsedHeader(HttpField field) { HttpHeader header=field.getHeader(); String value=field.getValue(); if (value == null) value = ""; if (header != null) { switch (header) { case EXPECT: if (_version.getVersion()>=HttpVersion.HTTP_1_1.getVersion()) { HttpHeaderValue expect = HttpHeaderValue.CACHE.get(value); switch (expect == null ? HttpHeaderValue.UNKNOWN : expect) { case CONTINUE: _expect100Continue = true; break; case PROCESSING: _expect102Processing = true; break; default: String[] values = value.split(","); for (int i = 0; i < values.length; i++) { expect = HttpHeaderValue.CACHE.get(values[i].trim()); if (expect == null) _expect = true; else { switch (expect) { case CONTINUE: _expect100Continue = true; break; case PROCESSING: _expect102Processing = true; break; default: _expect = true; } } } } } break; case CONTENT_TYPE: MimeTypes.Type mime = MimeTypes.CACHE.get(value); String charset = (mime == null || mime.getCharset() == null) ? MimeTypes.getCharsetFromContentType(value) : mime.getCharset().toString(); if (charset != null) _request.setCharacterEncodingUnchecked(charset); break; default: } } if (field.getName()!=null) _request.getHttpFields().add(field); return false; } @Override public boolean parsedHostHeader(String host, int port) { if (_uri.getHost()==null) { _request.setServerName(host); _request.setServerPort(port); } return false; } @Override public boolean headerComplete() { _requests.incrementAndGet(); HttpFields fields = _response.getHttpFields(); switch (_version) { case HTTP_0_9: break; case HTTP_1_0: if (_configuration.getSendDateHeader() && !fields.contains(HttpHeader.DATE)) _response.getHttpFields().add(_connector.getServer().getDateField()); break; case HTTP_1_1: if (_configuration.getSendDateHeader() && !fields.contains(HttpHeader.DATE)) _response.getHttpFields().add(_connector.getServer().getDateField()); if (_expect) { badMessage(HttpStatus.EXPECTATION_FAILED_417,null); return true; } break; default: throw new IllegalStateException(); } return true; } @Override public boolean content(T item) { if (LOG.isDebugEnabled()) LOG.debug("{} content {}", this, item); @SuppressWarnings("unchecked") HttpInput input = (HttpInput)_request.getHttpInput(); input.content(item); return false; } @Override public boolean messageComplete() { if (LOG.isDebugEnabled()) LOG.debug("{} messageComplete", this); _request.getHttpInput().messageComplete(); return true; } @Override public void earlyEOF() { _request.getHttpInput().earlyEOF(); } @Override public void badMessage(int status, String reason) { if (status < 400 || status > 599) status = HttpStatus.BAD_REQUEST_400; try { if (_state.handling()==Action.REQUEST_DISPATCH) { ByteBuffer content=null; HttpFields fields=new HttpFields(); ErrorHandler handler=getServer().getBean(ErrorHandler.class); if (handler!=null) content=handler.badMessageError(status,reason,fields); sendResponse(new ResponseInfo(HttpVersion.HTTP_1_1,fields,0,status,reason,false),content ,true); } } catch (IOException e) { LOG.debug(e); } finally { if (_state.unhandle()==Action.COMPLETE) _state.completed(); else throw new IllegalStateException(); } } protected boolean sendResponse(ResponseInfo info, ByteBuffer content, boolean complete, final Callback callback) { boolean committing = _committed.compareAndSet(false, true); if (committing) { // We need an info to commit if (info==null) info = _response.newResponseInfo(); // wrap callback to process 100 responses final int status=info.getStatus(); final Callback committed = (status<200&&status>=100)?new Commit100Callback(callback):new CommitCallback(callback); // committing write _transport.send(info, content, complete, committed); } else if (info==null) { // This is a normal write _transport.send(content, complete, callback); } else { callback.failed(new IllegalStateException("committed")); } return committing; } protected boolean sendResponse(ResponseInfo info, ByteBuffer content, boolean complete) throws IOException { try(Blocker blocker = _response.getHttpOutput().acquireWriteBlockingCallback()) { boolean committing = sendResponse(info,content,complete,blocker); blocker.block(); return committing; } } public boolean isCommitted() { return _committed.get(); } /** *

Non-Blocking write, committing the response if needed.

* * @param content the content buffer to write * @param complete whether the content is complete for the response * @param callback Callback when complete or failed */ protected void write(ByteBuffer content, boolean complete, Callback callback) { sendResponse(null,content,complete,callback); } protected void execute(Runnable task) { _connector.getExecutor().execute(task); } public Scheduler getScheduler() { return _connector.getScheduler(); } /* ------------------------------------------------------------ */ /** * @return true if the HttpChannel can efficiently use direct buffer (typically this means it is not over SSL or a multiplexed protocol) */ public boolean useDirectBuffers() { return getEndPoint() instanceof ChannelEndPoint; } /** * If a write or similar to this channel fails this method should be called. The standard implementation * is to call {@link HttpTransport#abort()} */ public void abort() { _transport.abort(); } private class CommitCallback implements Callback { private final Callback _callback; private CommitCallback(Callback callback) { _callback = callback; } @Override public void succeeded() { _callback.succeeded(); } @Override public void failed(final Throwable x) { if (x instanceof EofException || x instanceof ClosedChannelException) { LOG.debug(x); _callback.failed(x); _response.getHttpOutput().closed(); } else { LOG.warn("Commit failed",x); _transport.send(HttpGenerator.RESPONSE_500_INFO,null,true,new Callback() { @Override public void succeeded() { _callback.failed(x); _response.getHttpOutput().closed(); } @Override public void failed(Throwable th) { LOG.ignore(th); _callback.failed(x); _response.getHttpOutput().closed(); } }); } } } private class Commit100Callback extends CommitCallback { private Commit100Callback(Callback callback) { super(callback); } @Override public void succeeded() { if (_committed.compareAndSet(true, false)) super.succeeded(); else super.failed(new IllegalStateException()); } } }




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